Classical synchronization indicates persistent entanglement in isolated quantum systems | Zendy

Dirk Witthaut | Zendy; Sandro Wimberger | Zendy; Raffaella Burioni | Zendy; Marc Timme | Zendy

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Classical synchronization indicates persistent entanglement in isolated quantum systems

Author(s) -

Dirk Witthaut,

Sandro Wimberger,

Raffaella Burioni,

Marc Timme

Publication year - 2017

Publication title -

nature communications

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.559

H-Index - 365

ISSN - 2041-1723

DOI - 10.1038/ncomms14829

Subject(s) - quantum entanglement , physics , quantum , quantum discord , coherence (philosophical gambling strategy) , synchronization (alternating current) , quantum system , quantum mechanics , amplitude damping channel , statistical physics , topology (electrical circuits) , mathematics , combinatorics

Synchronization and entanglement constitute fundamental collective phenomena in multi-unit classical and quantum systems, respectively, both equally implying coordinated system states. Here, we present a direct link for a class of isolated quantum many-body systems, demonstrating that synchronization emerges as an intrinsic system feature. Intriguingly, quantum coherence and entanglement arise persistently through the same transition as synchronization. This direct link between classical and quantum cooperative phenomena may further our understanding of strongly correlated quantum systems and can be readily observed in state-of-the-art experiments, for example, with ultracold atoms.

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